Recombinant Mouse Lysophosphatidic acid receptor 1 (Lpar1)

Code CSB-CF013047MO
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Source in vitro E.coli expression system
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Product Details

Target Names
Lpar1
Uniprot No.
Alternative Names
Lpar1; Edg2; Gpcr26; Lpa1; Vzg1; Lysophosphatidic acid receptor 1; LPA receptor 1; LPA-1; Lysophosphatidic acid receptor Edg-2; Rec1.3; VZG-1
Species
Mus musculus (Mouse)
Expression Region
1-364
Target Protein Sequence
MAAASTSSPVISQPQFTAMNEQQCFYNESIAFFYNRSGKYLATEWNTVSKLVMGLGITVC VFIMLANLLVMVAIYVNRRFHFPIYYLMANLAAADFFAGLAYFYLMFNTGPNTRRLTVST WLLRQGLIDTSLTASVANLLAIAIERHITVFRMQLHTRMSNRRVVVVIVVIWTMAIVMGA IPSVGWNCICDIDHCSNMAPLYSDSYLVFWAIFNLVTFVVMVVLYAHIFGYVRQRTMRMS RHSSGPRRNRDTMMSLLKTVVIVLGAFIVCWTPGLVLLLLDVCCPQCDVLAYEKFFLLLA EFNSAMNPIIYSYRDKEMSATFRQILCCQRNENPNGPTEGSDRSASSLNHTILAGVHSND HSVV
Protein Length
Full length protein
Tag Info
Tag type will be determined during the manufacturing process.
The tag type will be determined during production process. If you have specified tag type, please tell us and we will develop the specified tag preferentially.
Form
Lyophilized powder
Note: We will preferentially ship the format that we have in stock, however, if you have any special requirement for the format, please remark your requirement when placing the order, we will prepare according to your demand.
Buffer before Lyophilization
Tris/PBS-based buffer, 6% Trehalose, pH 8.0
Reconstitution
We recommend that this vial be briefly centrifuged prior to opening to bring the contents to the bottom. Please reconstitute protein in deionized sterile water to a concentration of 0.1-1.0 mg/mL.We recommend to add 5-50% of glycerol (final concentration) and aliquot for long-term storage at -20℃/-80℃. Our default final concentration of glycerol is 50%. Customers could use it as reference.
Troubleshooting and FAQs
Storage Condition
Store at -20°C/-80°C upon receipt, aliquoting is necessary for mutiple use. Avoid repeated freeze-thaw cycles.
Shelf Life
The shelf life is related to many factors, storage state, buffer ingredients, storage temperature and the stability of the protein itself.
Generally, the shelf life of liquid form is 6 months at -20°C/-80°C. The shelf life of lyophilized form is 12 months at -20°C/-80°C.
Lead Time
Delivery time may differ from different purchasing way or location, please kindly consult your local distributors for specific delivery time.
Note: All of our proteins are default shipped with normal blue ice packs, if you request to ship with dry ice, please communicate with us in advance and extra fees will be charged.
Notes
Repeated freezing and thawing is not recommended. Store working aliquots at 4°C for up to one week.
Datasheet
Please contact us to get it.

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Target Background

Function
Receptor for lysophosphatidic acid (LPA). Plays a role in the reorganization of the actin cytoskeleton, cell migration, differentiation and proliferation, and thereby contributes to the responses to tissue damage and infectious agents. Activates downstream signaling cascades via the G(i)/G(o), G(12)/G(13), and G(q) families of heteromeric G proteins. Signaling inhibits adenylyl cyclase activity and decreases cellular cAMP levels. Signaling triggers an increase of cytoplasmic Ca(2+) levels. Activates RALA; this leads to the activation of phospholipase C (PLC) and the formation of inositol 1,4,5-trisphosphate. Signaling mediates activation of down-stream MAP kinases. Contributes to the regulation of cell shape. Promotes Rho-dependent reorganization of the actin cytoskeleton in neuronal cells and neurite retraction. Promotes the activation of Rho and the formation of actin stress fibers. Promotes formation of lamellipodia at the leading edge of migrating cells via activation of RAC1. Through its function as lysophosphatidic acid receptor, plays a role in chemotaxis and cell migration, including responses to injury and wounding. Plays a role in triggering inflammation in response to bacterial lipopolysaccharide (LPS) via its interaction with CD14. Promotes cell proliferation in response to lysophosphatidic acid. Required for normal skeleton development. May play a role in osteoblast differentiation. Required for normal brain development. Required for normal proliferation, survival and maturation of newly formed neurons in the adult dentate gyrus. Plays a role in pain perception and in the initiation of neuropathic pain.
Gene References into Functions
  1. Study shows that lysophosphatidic acid (LPA) propagates post-injury schwann cell (SC) dedifferentiation through lysophosphatidic acid 1 signaling. These data indicate that LPA may be a critical factor that shifts SCs towards a post-injury phenotype and contributes to the onset of Wallerian degeneration. PMID: 29051083
  2. we demonstrate that LPA1/3 antagonism mildly reduced plasma LDL cholesterol levels. Therefore, pharmacological inhibition of LPA1/3 receptors may prove a promising approach to diminish atherosclerosis development. PMID: 27883026
  3. LPA receptor 1 signaling increased TGFbeta expression via GSK3beta phosphorylation and SREBP1 activation, contributing to the development of diabetic nephropathy. PMID: 28111010
  4. Our data suggest that LPAR signaling stimulates SS development by induction of IL-17 production via ROCK and p38 MAPK pathways. Thus, LPAR inhibition could be a possible therapeutic strategy for SS. PMID: 28460477
  5. Our results suggest that LPA-enhanced foam cell formation is mediated by LPA1/3 -AKT activation and subsequent SRBI expression. PMID: 28765047
  6. Lysophosphatidic acid-LPA1 signaling is critically required for septation during alveolarization. PMID: 27082727
  7. Data show that lysophosphatidic acid receptor 1 (LPA1)-green fluorescent proteins can be used to directly quantify the running-induced increase in precursor proliferation. PMID: 27050949
  8. Results suggest a relevant role for the Lysophosphatidic acid/Lysophosphatidic acid receptor 1 signaling system in alcoholism. In addition, the LPA1-null mice emerge as a new model for genetic vulnerability to excessive alcohol drinking PMID: 26700247
  9. Findings describe a functional role for lysophosphatidic acid 1 receptor in the regulation of oligodendrocyte differentiation and myelination in the central nervous system. PMID: 25226845
  10. Data show that lysophosphatidic acid (LPA) induces phosphorylation of trkA receptor (TrkA) through lysophosphatidic acid receptor 1 (LPA1) binding to TrkA PMID: 26597701
  11. LPA receptor has a role in bone loss in ovariectomized mice, but the favorable effect of its inhibition on bone remodeling is less general than hypothesized PMID: 24994065
  12. These findings suggest that tumor and stromal LPA receptors, in particular LPA1 and LPA5, play different roles in invasion and the seeding of metastasis PMID: 25158955
  13. LPA1 receptor is involved in emotional behaviors and in the anatomical integrity of the corticolimbic circuit, the deregulation of which may be a susceptibility factor for anxiety disorders. PMID: 23775489
  14. These results suggest that Ile325, Tyr85, and Leu87 within LPA1 are essential for LPA1 protein properly folding in the ER. PMID: 25025571
  15. These results suggest that LPA1 receptor-mediated amplification of spinal LPA production is required for the development of paclitaxel-induced neuropathic pain. PMID: 25411045
  16. these results demonstrate that LPA1 is essential for in vitro and in vivo osteoclast activities. PMID: 24429286
  17. Ultrastructural analyses of peripheral nerves in mouse null-mutants for LPA1 showed delayed schwann cell-to-axon segregation, polyaxonal myelination by single schwann cells, and thinner myelin sheaths. PMID: 24115248
  18. This study demonstrate a correlation between gene expression and cell birthdates. Lpar1 cells are preferentially generated on E11.5 and survive preferentially after the first postnatal week compared with other subplate neurons PMID: 22628460
  19. Lysophosphatidic acid receptor 1 is necessary for development of arthritis. PMID: 23666827
  20. LPA1 receptor signaling plays key roles in the development of central neuropathic pain following cerebral ischemia PMID: 23318243
  21. Galphaq-coupled Lpar1 regulates cell proliferation and migration by activating two distinct PLC-beta isozymes, PLC-beta1 and PLC-beta2, respectively. PMID: 23478264
  22. LPA(1) is involved in bone development by promoting osteogenesis. PMID: 22867754
  23. LPA(1)-null mice displayed a basal c-Fos hyperactivity in the hippocampus and in the medial prefrontal cortex, which was regulated differently by the two different memory tasks employed. PMID: 22537775
  24. findings suggest that LPA1 receptor may be necessary for a normal associative contextual learning associated to cocaine, probably through the modulation of hippocampal glutamatergic circuits. PMID: 21887497
  25. The ability of LPA-LPA(1) signaling to promote epithelial cell apoptosis and fibroblast resistance to apoptosis may therefore contribute to the capacity of this signaling pathway to regulate the development of pulmonary fibrosis after lung injury. PMID: 22021336
  26. the ATX-LPA-LPAR axis is a critical regulator of embryonic vascular development that is conserved in vertebrates PMID: 21971049
  27. These results suggest that LPA1 strongly influences bone development both qualitatively and quantitatively and that, in vivo, its absence results in decreased osteogenesis with no clear modification of osteoclasis. PMID: 21569876
  28. the absence of the LPA receptor aggravates the chronic stress-induced impairment to hippocampal neurogenesis and its dependent functions PMID: 21980482
  29. Lysophosphatidic acid receptor 1 modulates lipopolysaccharide-induced inflammation in alveolar epithelial cells and murine lungs. PMID: 21821728
  30. These results suggest defined pathways for signaling through the lysophosphatidic acid receptor 1 to promote lysophosphatidic acid-mediated myosin II activation and subsequent cell migration in 4T1 breast cancer cells. PMID: 21302283
  31. This study shows that CaMKII and related synaptic mechanisms at glutamatergic synapses are strongly dysregulated in LPA1 KO mice. PMID: 20942999
  32. These data identify stereotyped and selective hypoxia-induced cerebral cortical disruption requiring LPA(1) signaling. PMID: 21878565
  33. LPA1 receptor has a role in angiogenesis in tumor cells and xenografts PMID: 20708100
  34. These results suggest that lysophosphatidic acid, which is converted from lysophosphatidylcholine by ATX, activates LPA1 receptors and induces dorsal root demyelination following nerve injury, which causes neuropathic pain. PMID: 21062487
  35. LPA(1-3) are differentially expressed in the central nervous system and their expression is upregulated in response to injury. PMID: 20495828
  36. exploratory and emotional impairments did not account for the cognitive deficits that may be attributed to maLPA(1) nulls' hippocampal malfunction PMID: 20388543
  37. LPA(1) and LPA(3) (lysophosphatidic acid)receptors promote neointima formation through activation of CXCL12-mediated mobilization and recruitment of smooth muscle progenitor cells. PMID: 20360252
  38. lysophosphatidic acid receptor-1 has a role in diet-induced obesity PMID: 20358347
  39. We propose that the LPA(1) receptor may play a major role in both spatial memory and response to anxiety-like conditions. PMID: 19689455
  40. LPA stimulation promotes the interaction of the LPA(2) receptor with a focal adhesion molecule, TRIP6 PMID: 14688263
  41. A marked deficit in prepulse inhibition, changes in the levels of brain 5-HT and a craniofacial dysmorphism is seen in LPA1 receptor-deficient mice, defects resembling those found in psychiatric disease. PMID: 14697676
  42. LPA and angiotensin II were also capable of inducing LPA1 receptor phosphorylation, showing that LPA1 receptor can be subjected to homologous and heterologous desensitization PMID: 15369458
  43. LPA does not behave as a potent PPARgamma agonist in adipocytes but, conversely, inhibits PPARgamma expression and adipogenesis via LPA(1) receptor activation PMID: 15710620
  44. LPA(1) function in normal cortical development and suggest that the presence of genetic modifiers of LPA(1) influences cerebral cortical development PMID: 17656621
  45. LPA1 links pulmonary fibrosis to lung injury by mediating fibroblast recruitment and vascular leak PMID: 18066075
  46. distinct molecular mechanisms regulate agonist-dependent and PMA-dependent internalization of the LPA 1 receptor. PMID: 18089565
  47. The results demonstrated that in C9 cells estrogens modulate LPA(1) action through estrogen receptor alpha with the participation of protein kinase C alpha and phosphoinositide 3-kinase. PMID: 18166159
  48. A novel in vivo function for LPA signaling as a germ cell survival factor during spermatogenesis. PMID: 18448840
  49. Results support the operation of lysophosphatidic acid receptor (1) signaling pathways in normal proliferation, maturation and differentiation of neuronal precursors. PMID: 18708146
  50. a direct role for LPA receptor signaling in cell transformation and tumorigenesis in conjunction with c-Myc PMID: 18762810

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Subcellular Location
Cell surface. Cell membrane; Multi-pass membrane protein. Endosome.
Protein Families
G-protein coupled receptor 1 family
Tissue Specificity
Detected in lung. Detected in oligodendrocytes in corpus callosum in brain cortex (at protein level). Expressed within the embryonic cerebral cortex, where it is enriched in the ventricular zone. In the adult brain, also expressed in oligodendrocytes, as
Database Links
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